ES2323783T3 - STEEL BEAM - Google Patents

Abstract

A steel beam to act together with concrete as a supporting composite structure for different slab systems. The structure is supported at supporting points at the area of the ends and comprises two web parts (1) and horizontal parts (2) extending outside thereof. The web parts (1) are adjacent at a distance from each other and interconnected at one edge of each web part (1) by means of an upper part (3). The web parts (1) and the upper part (3) constitute a space (4) for concrete. The steel beam comprises at least one peg member (7) whose one end is fastened to the upper part (3) and whose other end is pro-vided with an anchoring expansion or widening section (8). This peg member is arranged inside the space (4) defined by the web parts (1) and the upper part (3), in the area of the supporting points.

Description

Steel beam.

The invention relates to a steel beam ready to act, together with concrete, as a structure composed of support for different slab systems, being arranged the composite structure to be supported at least at support points in the end zone and comprising two laminar parts and two horizontal cantilever parts that are extend outwards, the laminar parts being arranged  adjacent to a certain distance from each other and interconnected in a edge of each laminar part by means of an upper part horizontal, the laminar parts and the part being arranged horizontal top to constitute a space that can be filled of concrete.

They have long known each other in the sector of steel beams construction of the previous type, the so-called steel composite beams. During installation, these beams Steel compounds act as a steel beam to support Temporary loads during installation. After concreting, which takes place after the installation of the slabs, the Beam acts, together with concrete, as a composite structure. In said concreting, the beam is completely filled with concrete together with the filling of the slab joints and a possible layer higher.

They have developed over the years Various different solutions for steel composite beams. Examples of previously known solutions include the solutions described in patent publications Finnish numbers 85745 (see WO 90/12173) and 92089. In particular document US-A-5,560,176, member of the family of the latter, unveils a steel beam according with the preamble of claim 1.

Steel composite beams are vain beams single or multiple openings. This means that the beam is supported at its ends, that is, in the area of the points of end part support or alternatively comprises intermediate supports, so that the beam also includes points of support between the support points of the end part. This is the reason why it is not practical to manufacture the beam of similar way throughout its length, but pieces of additional steel to the basic cross section according to the efforts.

Usually, the beam is subjected to a high shear stress in the vicinity of the support arranged at the point of support. In previous solutions, this high shear stress is supported by welding a plate Beveled inside the beam, near the point of support.

The drawback of the previous structure is that the plate increases the weight of the beam and, thus, its price. The plate is also difficult to fix on a production line since the welding position is unfavorable since, in practice, the worker has to lean and, at the same time, reach the top. Usually, the shear force decreases linearly from the end of the beam to the center. However, the plate is of uniform section, its thickness being determined according to the highest value of the shear force. In this way, part of the capacity of the plate is not
necessary and remains unused.

The objective of the invention is to disclose a steel beam that eliminates the inconvenience of the technique previous. This is achieved with a steel beam according to the invention. The steel beam of the invention is characterized in that minus a pin element, one of whose ends is fixed to the lower surface of the upper part and whose other end is equipped with an expansion or widening section for the anchor, is arranged inside the space defined by the laminar parts and the horizontal upper part, in the area of The support points.

An advantage of the invention over the technique Previous is that the pin elements are light and their number It can be varied very easily over the entire length of the beam. In consequently, a superfluous capacity and weight is not generated in the beam. An additional advantage of the invention is that the elements of plug are much easier to fix to the beam than the plate that It was previously used. The pin elements can be fixed to the plate constituted by the upper part of the beam, from the top, that is, welding can be carried out from above placing for example the plug element inside a hole arranged in the plate. This makes unnecessary the awkward working position caused by plate welding previously used

In what follows, the invention by way of an embodiment, by way of example, shown in the attached drawing, in which

Figure 1 shows a steel beam according to the invention seen in the longitudinal direction of the beam, and

Figure 2 is a perspective view of a beam according to the invention.

Figures 1 and 2 show an embodiment of the steel beam of the invention. The steel beam comprises two laminar parts (1) and two horizontal cantilever parts (2) that They extend outward. The laminar parts (1) are arranged adjacent, at a certain distance from each other and interconnected at one edge of each laminar part (1) by means of a horizontal upper part (3). The laminar parts (1) and the horizontal upper part (3) are arranged to constitute a space (4) that can be filled with concrete.

In the example of the figures, the edges Bottom of the laminar parts (1) are interconnected by middle of a horizontal bottom part (5). The laminar parts (1) they are equipped with openings (6) that allow the introduction of concrete in space (4).

The foregoing characteristics are evident to one skilled in the art, and therefore are not disclosed in greater detail in this description. In the same way as for the previous characteristics, reference is made to the publication of the Finnish patent number 85745 mentioned above-
mind.

According to the essential idea of the steel beam of the invention, pin elements are used, whose ends they comprise an expansion or widening section that acts as anchor, in the vicinity of a foothold. Such as the figures show, at least one pin element (7) is arranged within the space (4) defined by the parts laminar (1) and horizontal top (3) in the area of the Support points. One end of the pin element (7) is fixed to the bottom surface of the top, as shown particularly clearly in Figure 1. The other end of the pin element (7) is provided with an expansion section or widening (8) that helps anchor.

The number of pin elements (7) can vary over the entire length of the beam, preventing a unnecessary capacity Consequently, there may be one or more pin elements (7) according to the needs, and the number can also vary, for example, in the longitudinal direction of the beam. The plug elements (7) can be placed in one or several lines Figure 1 shows a solution in which Pin elements are in two lines. The pin elements (7) are located in the area of support points, that is, in the ends of the beam and, if required, also in the area of the support points located between the ends of the beam.

The plug elements can be manufactured from a smooth bar or a bar with nerves. The way of the expansion or widening section (8), which acts as an end anchoring, it is optional as long as it constitutes an element of anchorage. The shape of the anchor end may be, for example, round, oval, etc.

The expansion or widening section that acts as an anchor end, can be implemented using  Any suitable technique. However, it has been discovered that it is particularly advantageous an implementation in which pin elements (7) are made from pins stressed.

The embodiment of the described invention previously it is not intended, in any way, to limit the invention, but the invention can be freely modified within of the scope of the claims. Therefore, it is evident that the steel beam of the invention or its details do not have necessarily to be exactly as shown in the figures, but other solutions are also feasible.

Claims (7)

1. Steel beam arranged to act, together with concrete, as a composite support structure for different slab systems, the composite structure being arranged to be supported at least at the support points of the end zone and comprising two laminar parts (1) and two horizontal cantilever parts (2) extending outwardly thereof, the laminar parts (1) being arranged adjacent to a certain distance from each other and interconnected at one edge of each laminar part (1 ) by means of a horizontal upper part (3), the laminar parts (1) and the horizontal upper part (3) being arranged to constitute a space (4) that can be filled with concrete, characterized in that at least one element of pin (7), one of whose ends is fixed to the lower surface of the upper part (3) and whose other end is provided with an expansion or widening section (8) for anchoring, is arranged in the interior of the space (4) defined by the laminar parts (1) and the horizontal upper part (3), in the area of the support points. 2. Steel beam according to claim 1, characterized in that there are several pin elements (7). 3. Steel beam according to claim 2, characterized in that the pin elements (7) are arranged in a line. 4. Steel beam according to claim 2, characterized in that the pin elements (7) are arranged in several lines. 5. Steel beam according to any one of claims 1 to 4, characterized in that the pin elements (7) are made from a smooth bar. 6. Steel beam according to any one of claims 1 to 4, characterized in that the pin elements (7) are made from a bar with ribs. 7. Steel beam according to any of claims 1 to 6, characterized in that the pin elements (7) are pointed pins.